SU829171A1 - Control system for single-stage grinding ball-type mill - Google Patents

Description

(54) CONTROL SYSTEM OF THE SINGLE MILLING SINGLE-STEPPER

the true content of additives in the cement may not be as specified, although the weight ratio of the components to be metered is maintained.

The purpose of the invention is to improve the accuracy of maintaining the ratio of the penalty between components in cement and increase the average productivity of the mill.

The goal is achieved by the one-stage grinding ball control system, which includes dispensers of charge components with master devices to the mill, measuring the degree of filling of the mill with the charge, analyzer of the quality of grinding of cement and sequentially connecting it to the first key through the first key which is connected to the output of the filling degree meter, and the second to the output of the corrector, a controller, the first input of which is connected to the output of the reference element, and the outputs are connected with the metering devices of the metering device, and the ratio adjuster between the flows of the charge components, the output of which is connected to the second controller input, further comprises an analyzer of the additive content in cement, a second key and a corrector corrector, and the output of the analyzer of the additive content is through the second key: connected to the corrector input The output of which is connected to the input of the setter of the relation between the flows of the components of the charge.

The drawing shows a functional system diagram.

The system consists of a pipe ball mill 1 of one-stage grinding (3,2x15), weighing batchers 2, meter of 3 degrees of filling of the mill with charge, sieve automatic analyzer 4 grinding mills of the construction of VIASM, laboratory analyzer 5 content of the additive in cement, element b of comparison, regulator 7 key 8, corrector 9, consisting of comparison unit 10, arithmetic unit 11 and memory register 12, setting unit 13, key 14, program corrector 15, consisting of comparison unit 16, comparison unit 17, arithmetic unit 18, register 19memory, the arithmetic unit 20 of the adder 21, the adder 22, the counter 23 and the arithmetic unit 24.

The output of the meter, the 3 degrees of filling of the mill with the charge, is connected to the first input of the comparison element 6, the output of which is connected to one of the inputs of the regulator 7. The output of the regulator is connected to the master devices of the dispensers 2. The output of the analyzer 5 is the content of the additive in cement through a key. 8 is connected to the input of the equalizer 9 consisting of

the connected comparison unit 10, the arithmetic unit 11, and the memory register 12. The output of the equalizer 9 is connected to one of the inputs of the setter 13, the second input of which is supplied with a specified value between the components. The output of the setting device 13 is connected to the second input of the regulator 7. The output of the grinding quality analyzer is connected via the key 14 to the input of the software equalizer 15. The software equalizer consists of the comparison unit 16, the input of which is the input of the pro. and one of the outputs is connected to the input of the second comparison unit 17, the output of which is connected to the input of the arithmetic unit 18. The output of the arithmetic unit 18 is connected to the input of the memory register 19, one of the outputs of which is the output of the software equalizer. The second output of the comparison unit 16 is connected to the input of the arithmetic unit 20, one of the outputs of which is connected to one of the inputs of the adder 21. The second input of the adder is connected to the second input of the memory register 19. The output of the adder 21 is connected to one of the inputs of the adder 22, the output of which is connected to the input of the register 19 of the memory. The second output of the arithmetic unit 20 is connected to the input of the counter 23, the output of which is connected to the input of the arithmetic unit 24. The output of the arithmetic unit 24 is connected to the second input of the adder 22. The output of the software equalizer 15 is connected to the second input of the comparison block b.

The system works as follows.

The mill 1 through dispensers 2 receives three components of the mixture X, X, Xj The degree of filling of the mill with charge G is determined by the gauge 3, the quality, the grinding Z, in this case the grinding tonin, is determined by the automatic sieve analyzer 4, and the content D is an additive in cement laboratory analyzer 5. At this value, 6 is measured continuously, and Z and D at certain intervals. The signal from meter 3 enters the comparison element b, where it is compared with the value of GN. The dB signal of the non-consensus, which is the difference between G and GN, is sent to the regulator 7, which produces the controlling influences Y, y, j and US, sent to the master devices of the dispensers 2.

Claims (2)

When the key 8 is filled up, the signal from analyzer 5 enters the equalizer 9. In the comparison unit 10, it is compared with the preset values of the additive content 0 and DO determined by the standard for cement. If D DQ is 65; or O g U ,, then the signal goes to the arithmetic unit 11, which performs the following action t - DO - O The found value of the DC is stored in memory register 12 and fed to the input of the setpoint 13, changing the value of the ratio between the clinker and the additive supplied to the input of the regulator 7, If Dp, then in register 12 the former value of the value /) is kept. The signal Z from the analyzer 4 when closing key 14 is fed to the input of the software equalizer 15. In block 16, it is compared with the specified grinding quality values ZP, determined with tandarte on cement. If 1, then block 17 compares the value of GN with the set value G, and if GN G, then arithmetic block 18 makes a correction of GN and the new value of GN is stored in memory register 19 and fed to the input of comparison element 6. This action is carried out periodically with a period T. Thus, the load of the mill increases until Z becomes larger than the locked upper limit. If Z Z or Z Zo, then in the arithmetic unit 20 and the adder 21, the value GN is corrected by the value of d Y (Z-Z) or D Y (Z-Z). After the key 14 is turned off, the counting 23 is turned on, reading the number of periods T. At each period, the arithmetic unit 24 reduces the correction value or some predetermined value. Thus, in the co-regulator 22, at each control step, a new value of GN is stored, stored in register 19. The number of control steps, i.e., the duration of period T, in the interval between two adjacent closures of key 14 is predetermined. The invention The control system of a single-stage ball mill, including the batch components of the charge with setting devices w in the mill, the measuring degree of filling the mill with the charge, the analyzer of the quality of grinding of cement and the grinding element corrector, the first input of which is sequentially connected to it through the first key connected to the output of the filling degree meter, and the second to the output of the correction switch; a controller, the first input of which is connected to the output of the reference element, and the outputs are connected to the rear Kitsi metering devices, and the setting unit of the relationship between the flows of the components of the charge, the output of which is connected to the second input of the controller, characterized in that, in order to increase the accuracy of maintaining the ratio between the components in the cement and increase the average productivity of the mill, the system additionally contains an analyzer of the additive content cement, the second key and the corrector ratio, and the output of the analyzer content of the additive through the second key is connected to the input of the corrector corrector, the output of which is connected with the unit master input, the ratio between the flows of the charge components. Sources of information taken into account during the examination 1. Gelfand Ya.E. and others. Automatic regulation of the processes of crushing and grinding in the industry of building materials. M., Stroy-izdat, 196.9, p. 91. 2. Gelfand Ya.E. Management of cement production using computer technology. M., stroiizdat, 1973, p. 15-17, 156-158 (prototype). -rf rai % L ft. , A-ff